An electric bubble brush

By designing an electric foam-generating brush, which automatically generates foam using a water tank, foam-generating motor, and control module, the problem of cumbersome operation and uneven foam generation of traditional cleaning brushes is solved, achieving a highly efficient cleaning effect.

CN224440653UActive Publication Date: 2026-07-03HUBEI RUILIDA DAILY NECESSITIES CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI RUILIDA DAILY NECESSITIES CO LTD
Filing Date
2025-07-11
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Traditional cleaning brushes are cumbersome to operate, have low cleaning efficiency, produce uneven foam, and have poor cleaning results.

Method used

Design an electric foaming brush, including a handle, a brush head, and a water-absorbing scrubbing head. The brush head has a built-in water tank, a foaming motor, and a control module. Liquid is delivered to the foaming motor through a water supply pipe to generate foam, which is then sprayed onto the cleaning surface through a foaming element. A control switch is provided on the brush handle to control the operation of the foaming motor.

Benefits of technology

It achieves automatic foam generation and dispensing, with good foam generation effect and excellent foam output, thus improving cleaning efficiency and effectiveness.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224440653U_ABST
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Abstract

This utility model discloses an electric foam-generating brush, relating to the field of cleaning equipment; it includes: a brush handle with a control switch; a brush head connected to one end of the brush handle, comprising: a base with a water tank at one end and a foam-generating motor and control module at the other end, and a foam-generating element on its side wall; the water tank is connected to the inlet of the foam-generating motor via a water supply pipe; the outlet of the foam-generating motor is connected to the foam-generating element; the control module is electrically connected to both the foam-generating motor and the control switch; and a squeegee head is located on the side of the base away from the brush handle. This application can automatically generate and dispense foam during cleaning, with good foam generation and high foam output, thereby improving cleaning efficiency and effectiveness.
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Description

Technical Field

[0001] This utility model relates to the field of cleaning equipment, and more specifically, to an electric foam-making brush. Background Technology

[0002] Cleaning brushes are indispensable tools in daily life, widely used for cleaning various hard surfaces such as kitchens, bathrooms, cars, and homes. Traditional cleaning methods usually require users to manually apply or spray cleaning agents (such as dish soap, liquid soap, or special cleaning solutions) onto the surface to be cleaned or onto the brush head, and then use the brush to physically scrub.

[0003] Existing manual cleaning brushes are cumbersome to operate, resulting in low efficiency; moreover, the amount of foam generated by brushing and surface friction is limited and uneven, resulting in poor foam generation and poor cleaning effect. Utility Model Content

[0004] The purpose of this utility model is to provide an electric foam-generating brush that can automatically generate and dispense foam during cleaning, with good foam generation effect and excellent foam output, thereby improving cleaning efficiency and cleaning effect.

[0005] The embodiments of this utility model are implemented as follows:

[0006] This application provides an electric bubble-making brush, comprising:

[0007] The brush handle is equipped with a control switch;

[0008] The brush head, connected to one end of the brush handle, includes:

[0009] The base has a water tank at one end and a foaming motor and control module at the other end, and a foaming element is provided on its side wall; the water tank is connected to the inlet of the foaming motor through a water supply pipe; the outlet of the foaming motor is connected to the foaming element; the control module is electrically connected to the foaming motor and the control switch respectively.

[0010] A water-absorbing cleaning head is located on the side of the base away from the brush handle.

[0011] Furthermore, based on the aforementioned solution, the bubble outlet component includes:

[0012] A bubble-distributing tube is inserted through the side wall of the base, with one side connected to the liquid outlet of the foaming motor and multiple bubble-transfer channels provided on the opposite side.

[0013] The bubble outlet shell is detachably embedded in the side wall of the base. It is long and has multiple bubble outlets along its length. The multiple bubble outlets are respectively connected to the multiple bubble delivery channels. The bubble outlets at both ends are inclined to both sides.

[0014] Furthermore, based on the aforementioned solution, a connecting groove is provided on the side of the base that connects to the water-absorbing head; and multiple water outlets communicating with the connecting groove are provided at the bottom of the water tank;

[0015] A connecting housing is provided on the side of the absorbent wipe head that is connected to the base; the connecting housing is detachably connected to the connecting groove and is provided with a plurality of liquid guiding columns that are in contact with the absorbent wipe head.

[0016] Furthermore, based on the aforementioned scheme, the water tank is transparent, with a water inlet on its top, which is sealed by a water plug.

[0017] Furthermore, based on the aforementioned scheme, the control switch is located on the side wall of the brush handle away from the brush head, and includes a switch cavity, a switch cover, and a control button, a wireless communication module, and a button battery located inside the switch cavity;

[0018] The switch cover is detachably connected to the switch cavity;

[0019] The control button is connected to the control module via the wireless communication module, and the button battery is electrically connected to both the control button and the wireless communication module.

[0020] Furthermore, based on the aforementioned solution, the control module includes an electrically connected control board and a mobile battery, the control board being electrically connected to the foaming motor;

[0021] The base is provided with an on / off switch and a charging port on its side wall. The on / off switch is electrically connected to the control board, and the charging port is electrically connected to the mobile battery.

[0022] Furthermore, based on the aforementioned scheme, the base is also embedded with a power indicator light, which is electrically connected to the control board.

[0023] Furthermore, based on the aforementioned scheme, the base has a strip-shaped shell structure, and the side of it away from the water-absorbing head is connected to the brush handle via a rotary joint.

[0024] Furthermore, based on the aforementioned solution, a squeegee strip is detachably provided on the side of the base opposite to the bubble outlet.

[0025] Compared with the prior art, the embodiments of this utility model have at least the following advantages or beneficial effects:

[0026] This application features a brush head at one end of the brush handle. The brush head includes a base and a squeezing head. The base houses a water tank, a foaming motor, and a control module. The water tank delivers liquid to the foaming motor via a water pipe. The foaming motor generates foam, which is then delivered to a foaming element embedded in the side wall of the base. This allows the foam to be sprayed outwards onto the squeezing head or the surface to be cleaned. A control switch is installed on the brush handle and electrically connected to the control module, enabling direct control of the foaming motor from the brush handle itself, making operation convenient and quick. This application automatically generates and dispenses foam during cleaning, producing excellent foam generation and output, thus improving cleaning efficiency and effectiveness. Attached Figure Description

[0027] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this utility model and should not be regarded as a limitation on the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.

[0028] Figure 1 This is a schematic diagram of the overall structure of the electric bubble-making brush according to an embodiment of the present invention;

[0029] Figure 2 This is a schematic diagram of the front structure of the brush head according to an embodiment of the present invention;

[0030] Figure 3 This is a schematic diagram of the rear structure of the brush head according to an embodiment of the present utility model;

[0031] Figure 4 This is a schematic diagram of the internal structure of the brush head according to an embodiment of the present invention;

[0032] Figure 5 This is an exploded view of part of the structure of the brush head in an embodiment of this utility model.

[0033] Icons: 1-Brush handle, 11-Control switch, 2-Brush head, 21-Base, 211-On / off switch, 212-Charging port, 213-Power indicator light, 22-Water tank, 221-Water plug, 222-Water outlet, 23-Foaming motor, 24-Foaming component, 241-Foaming tube, 242-Foaming channel, 243-Foaming housing, 244-Foaming port, 25-Absorbent wiping head, 251-Connecting housing, 252-Liquid guide column, 26-Control board, 27-Mobile battery, 28-Wipe squeegee. Detailed Implementation

[0034] The embodiments of this application will now be described in detail with reference to the accompanying drawings.

[0035] Please refer to Figures 1-5The diagram shown is a schematic representation of the overall structure of an electric bubble brush.

[0036] This embodiment provides an electric bubble-making brush, including:

[0037] The brush handle 1 is equipped with a control switch 11;

[0038] Brush head 2, connected to one end of brush handle 1, includes:

[0039] The base 21 has a water tank 22 at one end and a foaming motor 23 and a control module at the other end, and a foaming element 24 on its side wall; the water tank 22 is connected to the inlet of the foaming motor 23 through a water supply pipe; the outlet of the foaming motor 23 is connected to the foaming element 24; the control module is electrically connected to the foaming motor 23 and the control switch 11 respectively.

[0040] The water-absorbing cleaning head 25 is located on the side of the base 21 away from the brush handle 1.

[0041] The following will further describe an electric bubble-making brush according to this exemplary embodiment.

[0042] In some embodiments, the brush head 2 is connected to one end of the brush handle 1, which facilitates the control of the brush head 2 for cleaning through the brush handle 1. The brush head 2 includes a base 21 and a water-absorbing wiping head 25 disposed on the base 21. The base 21 serves as a mounting base, and a water tank 22 is provided at one end for storing water or cleaning liquid. A foaming motor 23 and a control module are provided at the other end of the base 21. The water tank 22 is connected to the inlet of the foaming motor 23 through a water supply pipe. The cleaning liquid stored in the water tank 22 is pumped into the foaming motor 23 to generate cleaning foam. The foam liquid is then delivered to the foaming element 24 through the outlet of the foaming motor 23. The foaming element 24 is embedded in the side wall of the base 21, thereby spraying the foam liquid to the outside or flowing to the water-absorbing wiping head 25 below. By setting a control switch 11 on the brush handle 1 and electrically connecting it to the foaming motor 23 through the control module, the operation of the foaming motor 23 can be controlled on the brush handle 1, and the output of foam generation can be controlled. When foam is needed, the motor is controlled to run, generate foam and output it.

[0043] In a preferred embodiment, the foaming component 24 includes a foaming tube 241 and a foaming shell 243. The foaming tube 241 passes through the side wall of the base 21, with one side connected to the outlet of the foaming motor 23, and the other opposite side having multiple foam delivery channels 242. That is, the foam liquid generated by the foaming motor 23 enters the foaming tube 241 from its outlet, and is then delivered by the foaming tube 241 to the three foam delivery channels 242 respectively. The foaming shell 243 is detachably embedded in the side wall of the base 21. It is elongated and has multiple foam outlets 244 along its length. The multiple foam outlets 244 are connected to the multiple foam delivery channels 242 respectively. The three foam delivery channels 242 then deliver the foam liquid to the three foam outlets 244 respectively, from which it is discharged outwards, increasing the foam discharge range, thereby improving the foam coverage area and enhancing the cleaning effect.

[0044] Among them, the foam outlets 244 at both ends are tilted to the sides, that is, the foam outlet 244 in the middle discharges into the middle of the water-absorbing head 25, while the foam outlets 244 on both sides spray out at an angle to the sides of the water-absorbing head 25, further expanding the foam spraying range.

[0045] In a preferred embodiment, the base 21 is provided with a connecting groove on the side connected to the absorbent head 25; the bottom of the water tank 22 is provided with multiple water outlets 222 communicating with the connecting groove; the side of the absorbent head 25 connected to the base 21 is provided with a connecting housing 251; the connecting housing 251 is detachably connected to the connecting groove and is provided with several liquid guiding columns 252 that contact the absorbent head 25. By providing water outlets 222 at the bottom of the water tank 22, the liquid stored in the water tank 22 can be transported to the absorbent head 25 at the bottom through the liquid guiding columns 252, wetting it and achieving cleaning.

[0046] It should be noted that the diameter of the water outlet 222 is relatively small to prevent excessive water flow and uneven diffusion. The liquid guiding column 252 can be a hollow column or a column made of absorbent material. Multiple liquid guiding columns 252 are provided, spaced apart, and have a small diameter. They make multiple contacts with the top surface of the absorbent head 25, which can evenly guide the liquid into the absorbent head 25.

[0047] As a preferred embodiment, the water tank 22 is transparent and has a water inlet at the top, which is sealed by a water plug 221 to facilitate water filling.

[0048] Furthermore, the water tank 22 can be configured as a detachable structure, such as being snapped into a cavity at one end of the base, to facilitate cleaning of the water tank 22.

[0049] In a preferred embodiment, the control switch 11 is located on the side wall of the brush handle 1 away from the brush head 2, and includes a switch cavity, a switch cover, and a control button, a wireless communication module, and a button battery disposed inside the switch cavity. The switch cover is detachably connected to the switch cavity; the control button is connected to the control module via the wireless communication module, and the button battery is electrically connected to both the control button and the wireless communication module. Wireless connection between the control button and the control module avoids the cumbersome wiring connections. The switch cavity and switch cover facilitate disassembly, assembly, and maintenance of the structure.

[0050] In a preferred embodiment, the control module includes an electrically connected control board 26 and a portable battery 27. The control board 26 is electrically connected to the foaming motor 23. The side wall of the base 21 is provided with an on / off switch 211 and a charging port 212. The on / off switch 211 is electrically connected to the control board 26, and the charging port 212 is electrically connected to the portable battery 27. The on / off switch 211 allows the control board 26 and the foaming motor 23 to be directly turned off, preventing accidental activation of control buttons when not in use or when the foaming function is not in use. The portable battery 27 and charging port 212 facilitate portability and operation.

[0051] In a preferred embodiment, the base 21 is also equipped with a power indicator light 213, which is electrically connected to the control board 26. This light serves to remind the user to charge or replace the battery when the power of the portable battery 27 is low.

[0052] As a preferred embodiment, the base 21 has a strip-shaped shell structure, and the side away from the water-absorbing head 25 is connected to the brush handle 1 through a rotary joint, which can adjust the angle of the brush head 2, making the electric foaming brush cleaning more flexible.

[0053] In a preferred embodiment, a squeegee strip 28 is detachably provided on the side of the base 21 opposite to the bubble outlet 24. The squeegee strip 28 is used to wipe away water stains, thereby increasing the functionality of the electric bubble brush. Furthermore, the squeegee strip 28 is detachable, making it easy to replace after long-term use and aging. The detachable method can be by snap-fit ​​or sliding connection (as shown in the figure).

[0054] Furthermore, unless otherwise explicitly specified or limited, the terms "installation" and "connection" in this application embodiment should be interpreted broadly. For example, "connection" can be a detachable connection or a non-detachable connection; it can be a direct connection or an indirect connection through an intermediate medium. The terms "upper," "lower," "left," "right," "inner," "outer," and "side," etc., are merely for reference to the direction in the accompanying drawings or the usual placement of the product during use. They are only for clearly describing this application and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. They should not be construed as limitations on this application. The terms "first," "second," etc., are only used for distinguishing descriptions and should not be construed as indicating or implying relative importance; "multiple" refers to at least two. In this application embodiment, the limitations on relative positional relationships such as parallel, perpendicular, and aligned are all relative to the current technological level and are not absolutely strict limitations. Slight deviations are allowed; approximations of parallel, perpendicular, and aligned are all acceptable. For example, "A and B are parallel" means that A and B are parallel or approximately parallel, and the angle between A and B can be between 0 degrees and 10 degrees.

[0055] The above are only some embodiments and implementation methods of this application. The protection scope of this application is not limited thereto. In the absence of conflict, the embodiments and features in the embodiments of this application can be combined with each other. Any combination of features in different embodiments is also within the protection scope of this application. Any changes or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the protection scope of this application.

Claims

1. An electrically powered foaming brush characterized in that, include: The brush handle is equipped with a control switch; The brush head, connected to one end of the brush handle, includes: The base has a water tank at one end and a foaming motor and control module at the other end, and a foaming element is provided on its side wall; the water tank is connected to the inlet of the foaming motor through a water supply pipe; the outlet of the foaming motor is connected to the foaming element; the control module is electrically connected to the foaming motor and the control switch respectively. The absorbent brush head is located on the side of the base away from the brush handle.

2. The electric bubble-making brush according to claim 1, characterized in that, The bubble outlet component includes: A bubble-distributing tube is inserted through the side wall of the base, with one side connected to the liquid outlet of the foaming motor and multiple bubble-transfer channels provided on the opposite side. The bubble outlet shell is detachably embedded in the side wall of the base. It is long and has multiple bubble outlets along its length. The multiple bubble outlets are respectively connected to the multiple bubble delivery channels. The bubble outlets at both ends are inclined to both sides.

3. The electrically powered foaming brush of claim 1, wherein, A connecting groove is provided on the side of the base that connects to the water-absorbing head; multiple water outlets communicating with the connecting groove are provided at the bottom of the water tank; A connecting housing is provided on the side of the absorbent wipe head that is connected to the base; the connecting housing is detachably connected to the connecting groove and is provided with a plurality of liquid guiding columns that are in contact with the absorbent wipe head.

4. The electrically powered foaming brush of claim 3, wherein, The water tank is transparent and has a water inlet at the top, which is sealed with a water plug.

5. The electrically powered foaming brush of claim 1, wherein, The control switch is located on the side wall of the brush handle away from the brush head, and includes a switch cavity, a switch cover, and a control button, a wireless communication module, and a button battery located inside the switch cavity; The switch cover is detachably connected to the switch cavity; The control button is connected to the control module via the wireless communication module, and the button battery is electrically connected to both the control button and the wireless communication module.

6. The electrically powered foaming brush of claim 5, wherein, The control module includes an electrically connected control board and a mobile battery, and the control board is electrically connected to the foaming motor; The base is provided with an on / off switch and a charging port on its side wall. The on / off switch is electrically connected to the control board, and the charging port is electrically connected to the mobile battery.

7. The electrically powered foaming brush of claim 6, wherein, The base is also embedded with a power indicator light, which is electrically connected to the control board.

8. The electrically powered foaming brush of claim 1, wherein, The base has a strip-shaped shell structure, and its side away from the water-absorbing head is connected to the brush handle via a rotary joint.

9. The electrically powered foaming brush of claim 1, wherein, A squeegee strip is detachably provided on the side of the base opposite to the bubbling element.